096 Well Assay Microplates
Wheaton™ AntiBIND™ Deep Well Microplates
Used in chromatography applications, long term sample storage, and bioanalytical assays. Wheaton AntiBIND 96 Deep Well Microplates, Conical, are manufactured using a new technology that modifies the polypropylene surface at the molecular level to produce a homogenous hydrophilic surface that eliminates nonspecific protein binding and ensures ultimate recovery of valuable proteins.
Corning™ 96-Well Special Optics Low Fluorescence Assay Plates
Ideal for spectroscopy, polarization, and imaging
Corning™ 96-Well Half Area Black Flat Bottom Polystyrene Microplates
Designed to reduce well-to-well crosstalk
Corning™ Black and White 96-Well Polypropylene Assay Plates
Lower compound sticking and higher solvent resistance than polystyrene plates
Corning™ Clear Polystyrene 96-Well Microplates
Manufactured from clear medical grade polystyrene for strength and visibility. Corning™ Clear Polystyrene 96-Well Microplates present an excellent solution for cell culture and colorimetric (absorbance) assays. Use 96-well microplates for laboratory miniaturization and automation.
Corning™ 96-Well Half Area Flat Bottom Polystyrene NBS™ Microplates
Designed to reduce well-to-well crosstalk during luminescent assays
Corning™ DNA-BIND™ Stripwell™ Polystyrene Microplate Without Lid
Conveniently designed Stripwell polystyrene strips for ease of use
Corning™ Costar™ Transtar™-96 96-Well Liquid Transfer System Accessories: Reservoir Liners
For use with 96-well plates
Corning™ 96-Well Half Area High Content Imaging Glass Bottom Microplate
High optical-quality glass bottom, black microplates are ideal for performing high content cell-based assays using imaging systems
Corning™ 96-Well Solid Black or White Polystyrene Microplates
Manufactured from medical grade polystyrene for strength. Corning™ 96-Well Black or White Polystyrene Microplates are used for florescent and luminescent assays. Lot tested for opacity and low fluorescent/luminescent background.
Corning™ Clear Polypropylene 96-Well Expanded-Volume Plates
Offer reduced space requirements while maintaining full instrument compatibility
Corning™ 96-Well Spheroid Microplate
Ultra-low attachment surface enables uniform and reproducible 3D multicellular spheroid formation
Corning™ LSE™ Digital Drybath Heater 96-Well PCR Microplate
Skirted or nonskirted, for use with Corning LSE Digital Dry Bath Heater, Dual Block Only
Corning™ 96-Well Half Area High Content Imaging Film Bottom Microplate with Lid
High optical-quality film bottom, black microplates are ideal for performing high content cell-based assays using imaging systems
Corning™ 96-Well Clear Bottom Black or White Polystyrene Microplates
Manufactured from medical grade polystyrene for strength. Corning™ 96-Well Clear Bottom Black or White Polystyrene Microplates permit direct microscopic viewing. For fluorescent and luminescent assays; ideal for performing cell-based and molecular assays.
Corning™ 96-Well Clear Flat Bottom Sulfhydryl-BIND™ Microplate
For assays requiring site-directed orientation of a biomolecule, especially antibodies
Corning™ 96-Well Clear Polypropylene Corner Notch Microplates
Manufactured from solvent resistant polypropylene which provides compatibility with many common organic solvents. Corning™ 96-Well Clear Polypropylene Corner Notch Microplates are ideal for growing cells in stationary suspension or where reduced cell attachment is desired.
Fisherbrand™ 96-Well Polystyrene Plates
Ideal for antibiotic screens, cell-based assays and screening compounds
Corning™ 96-Well Round Bottom Polystyrene Carbo-BIND Microplate
Ideal for assays requiring site-directed orientation of biomolecules (oxidized antibodies, carbohydrates, and glycosylated proteins) while maintaining enzymatic or immunological activity
Corning™ 96-Well Clear PVC Assay Microplates
Manufactured from clear flexible Polyvinyl Chloride (PVC) for economy and visibility. Corning™ 96-Well Clear PVC Assay Microplates present an excellent solution for laboratory miniaturization. Due to their flexible nature, these microplates are not compatible with automation.